Flight Gear Simulation System: Outline Submission
Flight Gear Simulation System
4.3 Field Study and Evaluation: Outline Submission
In this assignment you willcomplete an outline of your studyand identify potential references.View the suggested sections of your studybelow. (Note: these may be edited and rearranged to fit the needs of your study).
Each heading and subheading should have a brief description of the expected content. For example, under theSimulation Descriptionheading below, view the sample annotation.
General Sections for Evaluation Outline
Abstract
Introduction
Simulation Description
(Sampleannotation): Description of the Real-Flight X simulation, how the interface works, what aircraft are available, and the various training and racing modes.
Methodology
Evaluation -this section may include subsections of:
Fidelity
Performance
Strengths & Limitations
User Interface
Transfer of Training
Cost Effectiveness
Applications for Training
Orany other subsectionyou deem necessary
Recommendations
Conclusion
References
Rubric
SECTION DESCRIPTION. The outline provides the section headings and adequate detail (1-2 sentences) to explain the contribution and it meets the specified requirements.
SOURCES. The type of references that will be used and examples are provided. The variety of sources clearly relate to the simulation or its function and will contribute to the depth of the evaluation. The currency (publication date), variety (primary and secondary), primacy (jurried & seminal), and number of documented sources meet the assignment requirements.
FORMAT. The outline includes a title page with the working title of the manuscript, full names of the author(s), course title and institution byline, and submission date. The outline is written in APA format with proper section titles.
Helpful resoues:
hang, H. M., & Li, L. (2013). A flight evaluating system using flight gear.Applied Mechanics and Materials,347-350, 891. doi:http://dx.doi.org.ezproxy.libproxy.db.erau.edu/10.4028/www.scientific.net/AMM.347-350.891
https://apps.dtic.mil/dtic/tr/fulltext/u2/a303799.pdf
https://www.sciencedirect.com/science/article/pii/S1658361215000141
Cereceda, O., Rolland, L., & OYoung, S. (2019). Giant big stik r/c uav computer model development in jsbsim for sense and avoid applications.Drones,3(2), 48.
Ganoni, O., & Mukundan, R. (2017). A framework for visually realistic multi-robot simulation in a natural environment. arXiv preprint arXiv:1708.01938.
Larsen, A. H., Mortensen, J. J., Blomqvist, J., Castelli, I. E., Christensen, R., Duak, M., … & Hermes, E. D. (2017). The atomic simulation environmenta Python library for working with atoms.Journal of Physics: Condensed Matter,29(27), 273002.
Mairaj, A., Baba, A. I., & Javaid, A. Y. (2019). Application specific drone simulators: Recent advances and challenges.Simulation Modelling Practice and Theory,94, 100-117.
